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http://dx.doi.org/10.7469/JKSQM.2020.48.3.481

A Study on Elimination of Color Difference of Combat Uniform Fabrics through Spectrophotometer by Various Manufacturers  

Choi, Sujin (Directorate of Quality Management, Defense Agency for Technology and Quality)
Yeom, Seulki (Directorate of Quality Management, Defense Agency for Technology and Quality)
Lee, Minhee (Directorate of Quality Management, Defense Agency for Technology and Quality)
Hong, Seongdon (Directorate of Quality Management, Defense Agency for Technology and Quality)
Publication Information
Journal of Korean Society for Quality Management / v.48, no.3, 2020 , pp. 481-492 More about this Journal
Abstract
Purpose: The purpose of this study was to minimize the difference between color of fibers of combat uniforms occurring depending on the type of dye or process of each manufacturer. Methods: Color difference between combat uniforms made from different manufacturers in mass production by lot was analyzed using spectrophotometer and calculated by color difference formula. Results: By the results of analyzing the color difference between combat uniforms made from different manufacturers with moving average and time series analysis, the feedback to each manufacturer was given. Conclusion: By this study, the color deviation of combat uniforms from different manufacturers was improved to be reduced.
Keywords
Camouflage; Color difference; Textile; Spectrophotometer; Combat uniform;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
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1 B. S. Choi. 1992. Univariate Time Series Analysis. Sekyung.
2 Barbara G. Tabachnick and Linda S. Fidell. 2001. Using Multivariate Statistics. 6th ed. Pearson.
3 CIE 1931 Color Space. Wikipedia the Free Encyclopedia. Available from: https://en.wikipedia.org/wiki/CIE_1931_color_space.
4 Clif Droke. 2001. Moving Averages Simplified. Marketplace Books.
5 Color Difference. Wikipedia the Free Encyclopedia. Available from: https://en.wikipedia.org/wiki/Color_difference.
6 H. R. Yoon. 2008a. Color Perception Theory and Systematic Theory. Kukje, p 10-54.
7 H. R. Yoon. 2008b. Color Control and Color Design. Anyang: Kukje; p 62.
8 KS A 0063. 2015. Method for Specification of Colour Differences for Opaque Materials. Korean Agency for Technology and Standards.
9 KS K 0205. 2008. Calculation of Color Difference for Textiles. Korean Agency for Technology and Standards.
10 KS K ISO 105-A02. 2014. Textiles-Tests for Colour Fastness-Part A02: Grey Scale for Assessing Change in Colour. Korean Agency for Technology and Standards.
11 KS K ISO 105-B05. 2014. Textiles-Tests for Color Fastness - Part B05: Detection and Assessment of Photochromism. Korean Agency for Technology and Standards.
12 Masahiko Ito and Naoya Katoh. 1998. Three-dimensional Gamut Mapping Using Various Color Difference Formulae and Color Spaces. Proc. SPIE 3648. Color Imaging: Device-Independent Color, Color Hardcopy, and Graphic Arts IV.
13 S. D. Hong, D. H. Lee, and Y. G. Kim. A Study on Reliability for Infrared Testing Method of Clothes. Proceedings of the Korean Society for Quality Management Spring Conference; 2013; Seoul: Korean Society for Quality Management p. 128.
14 Y. Jeong, S. Moon, J. S. Kang, H. K. Seo, and H. B. Park. 2014. A Study on Processes and Performance Evaluation for IR Camouflage Printed Selectively Permeable Membrane Fabrics. Textile Coloration and Finishing. 26(1):13.   DOI
15 Y. Park. 2013. Camouflage of Combat Uniform and Set of Reflectance Standard. Fiber Technology and Industry. 17(4):235.